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import math |
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import matplotlib.pyplot as plt |
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import librosa.display |
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import numpy as np |
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# binary search |
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import pygame |
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def bin_search(arr, target): |
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index = int(len(arr) / 2) |
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min_index = 0 |
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max_index = len(arr) - 1 |
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found = False |
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if target < arr[0]: |
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return 0 |
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if target > arr[len(arr) - 1]: |
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return len(arr) - 1 |
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while not found: |
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if min_index == len(arr) - 2: |
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return len(arr) - 1 |
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if arr[index] < target < arr[index + 1] or arr[index] == target: |
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return index |
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if arr[index] > target: |
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max_index = index |
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else: |
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min_index = index |
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index = int((min_index + max_index) / 2) |
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def rotate(xy, theta): |
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# https://en.wikipedia.org/wiki/Rotation_matrix#In_two_dimensions |
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cos_theta, sin_theta = math.cos(theta), math.sin(theta) |
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return ( |
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xy[0] * cos_theta - xy[1] * sin_theta, |
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xy[0] * sin_theta + xy[1] * cos_theta |
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) |
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def translate(xy, offset): |
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return xy[0] + offset[0], xy[1] + offset[1] |
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def clamp(min_value, max_value, value): |
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if value < min_value: |
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return min_value |
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if value > max_value: |
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return max_value |
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return value |
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class AudioAnalyzer: |
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def __init__(self): |
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self.frequencies_index_ratio = 0 # array for frequencies |
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self.time_index_ratio = 0 # array of time periods |
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self.spectrogram = None # a matrix that contains decibel values according to frequency and time indexes |
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def load(self, filename): |
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time_series, sample_rate = librosa.load(filename) # getting information from the file |
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# getting a matrix which contains amplitude values according to frequency and time indexes |
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stft = np.abs(librosa.stft(time_series, hop_length=512, n_fft=2048*4)) |
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self.spectrogram = librosa.amplitude_to_db(stft, ref=np.max) # converting the matrix to decibel matrix |
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frequencies = librosa.core.fft_frequencies(n_fft=2048*4) # getting an array of frequencies |
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# getting an array of time periodic |
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times = librosa.core.frames_to_time(np.arange(self.spectrogram.shape[1]), sr=sample_rate, hop_length=512, n_fft=2048*4) |
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self.time_index_ratio = len(times)/times[len(times) - 1] |
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self.frequencies_index_ratio = len(frequencies)/frequencies[len(frequencies)-1] |
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def show(self): |
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librosa.display.specshow(self.spectrogram, |
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y_axis='log', x_axis='time') |
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plt.title('spectrogram') |
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plt.colorbar(format='%+2.0f dB') |
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plt.tight_layout() |
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plt.show() |
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def get_decibel(self, target_time, freq): |
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return self.spectrogram[int(freq*self.frequencies_index_ratio)][int(target_time*self.time_index_ratio)] |
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# returning the current decibel according to the indexes which found by binary search |
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# return self.spectrogram[bin_search(self.frequencies, freq), bin_search(self.times, target_time)] |
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def get_decibel_array(self, target_time, freq_arr): |
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arr = [] |
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for f in freq_arr: |
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arr.append(self.get_decibel(target_time,f)) |
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return arr |
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class AudioBar: |
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def __init__(self, x, y, freq, color, width=50, min_height=10, max_height=100, min_decibel=-80, max_decibel=0): |
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self.x, self.y, self.freq = x, y, freq |
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self.color = color |
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self.width, self.min_height, self.max_height = width, min_height, max_height |
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self.height = min_height |
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self.min_decibel, self.max_decibel = min_decibel, max_decibel |
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self.__decibel_height_ratio = (self.max_height - self.min_height)/(self.max_decibel - self.min_decibel) |
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def update(self, dt, decibel): |
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desired_height = decibel * self.__decibel_height_ratio + self.max_height |
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speed = (desired_height - self.height)/0.1 |
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self.height += speed * dt |
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self.height = clamp(self.min_height, self.max_height, self.height) |
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def render(self, screen): |
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pygame.draw.rect(screen, self.color, (self.x, self.y + self.max_height - self.height, self.width, self.height)) |
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class AverageAudioBar(AudioBar): |
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def __init__(self, x, y, rng, color, width=50, min_height=10, max_height=100, min_decibel=-80, max_decibel=0): |
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super().__init__(x, y, 0, color, width, min_height, max_height, min_decibel, max_decibel) |
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self.rng = rng |
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self.avg = 0 |
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def update_all(self, dt, time, analyzer): |
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self.avg = 0 |
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for i in self.rng: |
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self.avg += analyzer.get_decibel(time, i) |
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self.avg /= len(self.rng) |
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self.update(dt, self.avg) |
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class RotatedAverageAudioBar(AverageAudioBar): |
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def __init__(self, x, y, rng, color, angle=0, width=50, min_height=10, max_height=100, min_decibel=-80, max_decibel=0): |
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super().__init__(x, y, 0, color, width, min_height, max_height, min_decibel, max_decibel) |
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self.rng = rng |
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self.rect = None |
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self.angle = angle |
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def render(self, screen): |
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pygame.draw.polygon(screen, self.color, self.rect.points) |
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def render_c(self, screen, color): |
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pygame.draw.polygon(screen, color, self.rect.points) |
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def update_rect(self): |
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self.rect = Rect(self.x, self.y, self.width, self.height) |
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self.rect.rotate(self.angle) |
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class Rect: |
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def __init__(self,x ,y, w, h): |
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self.x, self.y, self.w, self.h = x,y, w, h |
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self.points = [] |
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self.origin = [self.w/2,0] |
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self.offset = [self.origin[0] + x, self.origin[1] + y] |
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self.rotate(0) |
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def rotate(self, angle): |
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template = [ |
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(-self.origin[0], self.origin[1]), |
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(-self.origin[0] + self.w, self.origin[1]), |
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(-self.origin[0] + self.w, self.origin[1] - self.h), |
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(-self.origin[0], self.origin[1] - self.h) |
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] |
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self.points = [translate(rotate(xy, math.radians(angle)), self.offset) for xy in template] |
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def draw(self,screen): |
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pygame.draw.polygon(screen, (255,255, 0), self.points) |